From http://www.memoir-systems.com/index.php?option=com_content&view=article&id=73&Itemid=472 :
"by implementing a variety of techniques such as caching, virtualization, pipelining, and data encoding".
What exactly that means is not clear (and the whitepaper does not provide any significant additional information).
Address renaming (virtualization) could obviously be used manage bank conflicts. Bank conflicts could also be statistically reduced by _address_ encoding, but it is not clear that such would help worst case behavior even in the presence of other techniques. Pipelining could make temporal multiporting act as physical multiporting.
Their term Algorithmic Memory made me think that perhaps they exploited expected access patterns, but that appears not to be the case. The "algorithm" revers to the generation of a memory by algorithmic combination of standard components.
The major accomplishment here seems to be in making such transparent to the designer.

In conjunction with unveiling of EE Times’ Silicon 60 list, journalist & Silicon 60 researcher Peter Clarke hosts a conversation on startups in the electronics industry. One of Silicon Valley's great contributions to the world has been the demonstration of how the application of entrepreneurship and venture capital to electronics and semiconductor hardware can create wealth with developments in semiconductors, displays, design automation, MEMS and across the breadth of hardware developments. But in recent years concerns have been raised that traditional venture capital has turned its back on hardware-related startups in favor of software and Internet applications and services. Panelists from incubators join Peter Clarke in debate.